Imagine you have a toy phone that can talk to your friends. Sometimes, the toy phone uses a tower to talk (like a grown-up phone uses a cell tower), and sometimes it uses the internet from your house (like when you watch videos on a tablet). This toy phone is super smart! It knows that if the tower is far away, it should use the internet from your house so you can talk clearly. But, it also knows that if a stranger is trying to listen, it should only use the super-safe tower. This smart phone is like the Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile patent! It helps your real phone talk to people using the best and safest way possible!
The Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile patent details a method, system, and computer program product designed to control the delivery of voice communications by intelligently managing the switch between cellular and wireless networks. The core innovation lies in creating a user profile that specifies thresholds for network switching and stores security levels associated with contacts.
The problem being solved is the unreliable and often insecure nature of current mobile network switching. Existing devices typically switch networks based solely on signal strength, leading to dropped calls, poor voice quality, and potential security breaches when connecting to unsecured Wi-Fi networks. This technology addresses these shortcomings by introducing a more sophisticated approach.
The key technical approach involves creating a user profile that dictates when and how the device switches between cellular and Wi-Fi networks. The profile includes signal strength thresholds and a list of contacts with associated security levels. When the cellular signal weakens, the device scans for Wi-Fi networks but only connects to those authorized by the user's profile, based on the security level of the contact.
The business value and applications are significant. This technology can improve the reliability and security of mobile communications, enhancing productivity and reducing risks for businesses. It can be integrated into existing VoIP platforms and mobile operating systems, providing a seamless and secure communication experience. The market opportunity is substantial, as the demand for secure and reliable mobile communication continues to grow.
By prioritizing security and optimizing network selection, Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile ensures reliable and secure communication, enhancing productivity and reducing risk. This innovation has the potential to become a standard feature in future mobile devices, transforming the way we communicate on the go.
The Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile patent addresses a common problem in today's mobile world: unreliable voice calls due to poor network switching.
1. What Problem Does This Solve? In today's world, we rely on our mobile phones for almost everything, including important voice calls. However, phones often switch between cellular networks and Wi-Fi networks haphazardly. This can lead to dropped calls, poor voice quality, and even security risks if your phone connects to an unsecured Wi-Fi network. Existing solutions simply switch based on signal strength, which isn't always the best choice.
2. How Does It Work? Imagine your phone has a smart assistant that knows your preferences and security needs. This patent describes a technology that creates a "profile" for you. This profile tells your phone when to switch between cellular and Wi-Fi. For example, it might say, "If the cellular signal is weak, switch to Wi-Fi, but only if it's a secure network." It can also prioritize certain contacts. If you're talking to your doctor, it might insist on using a secure connection, even if the signal isn't perfect. It's like having a VIP lane for your important calls.
3. Why Does This Matter? This technology has a huge impact on both individuals and businesses. For individuals, it means fewer dropped calls and better voice quality. For businesses, it means more reliable communication with clients and employees. It also enhances security, protecting sensitive information during calls. This creates a competitive advantage for companies that adopt this technology, as it improves customer satisfaction and reduces the risk of security breaches.
4. What's Next? The future of this technology involves even more intelligent network switching. Imagine phones that can predict network congestion and proactively switch to avoid disruptions. This technology could also be integrated with other communication tools, such as video conferencing and messaging apps. The potential market adoption timeline is relatively short, as mobile device manufacturers are constantly looking for ways to improve the user experience. This makes it an attractive investment opportunity for companies looking to stay ahead of the curve.
A method, system and computer program product for controlling the delivery of voice communications. A profile is created for the user of a mobile device that specifies the thresholds for switching between a cellular network and a wireless network to conduct voice communications as well as stores a list of contacts and associated security levels. If the signal strength of the cellular radio signal is below a threshold, then the mobile device detects one or more wireless networks that are in the area of the user of the mobile device. The profile of the user of the mobile device is then checked to determine if the mobile device is authorized to switch to one of the detected wireless networks to deliver voice communications based on a security level associated with the party communicating with the user. In this manner, the user is able to control the delivery of voice communications.
The Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile patent introduces a technically sophisticated approach to voice communication management in mobile devices. The core of this innovation lies in the intelligent switching between cellular and wireless networks based on a user's profile and security considerations. Traditional methods often rely solely on signal strength, leading to suboptimal network choices and potential security vulnerabilities.
The technical architecture comprises several key components. A user profile is stored on the mobile device, containing thresholds for cellular and Wi-Fi signal strength, along with a list of contacts and their associated security levels. When the cellular signal drops below a specified threshold, the device scans for available Wi-Fi networks. The system then consults the user's profile to determine if switching to a detected Wi-Fi network is authorized, based on the security level of the communicating party. This decision-making process involves a sophisticated algorithm that considers signal strength, security levels, and user preferences to optimize voice quality and security.
Implementation details likely involve the use of APIs provided by the mobile operating system to access network information and manage connections. The algorithm for determining the optimal network would need to be carefully designed to balance performance and security considerations. Integration patterns could include the use of background services to monitor network conditions and trigger network switching events. Performance characteristics would depend on the efficiency of the algorithm and the speed of network switching.
Code-level implications involve the development of custom network management modules that interact with the operating system's network APIs. These modules would need to be carefully tested to ensure compatibility with different devices and network configurations. Furthermore, the user profile data would need to be stored securely to prevent unauthorized access.
This technology represents a significant advancement in mobile communication, offering a more intelligent and secure approach to network management. The integration of user profiles and security considerations into network switching has the potential to improve the reliability and security of mobile communications across various industries.
The Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile patent presents a significant business opportunity in the rapidly evolving mobile communication landscape. The core value proposition lies in enhancing the reliability and security of voice communications by intelligently managing the switch between cellular and wireless networks.
The market opportunity size is substantial. With the increasing reliance on mobile devices for both personal and professional communication, the demand for secure and reliable voice communication is growing rapidly. The competitive advantages of this technology include improved voice quality, enhanced security, and a personalized user experience. These advantages can translate into increased user satisfaction and loyalty.
The revenue potential is significant. This technology can be monetized through various business models, including licensing the technology to mobile device manufacturers and telecommunication companies, offering premium mobile communication services, and developing custom mobile applications that incorporate this technology.
Strategic positioning involves targeting industries where secure and reliable mobile communication is critical, such as healthcare, finance, and government. The ROI projections are promising, with the potential for significant cost savings due to reduced dropped calls and improved productivity.
By prioritizing security and optimizing network selection, Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile ensures reliable and secure communication, enhancing productivity and reducing risk. This innovation has the potential to become a standard feature in future mobile devices, transforming the way we communicate on the go. The business implications are far-reaching, with the potential to disrupt the mobile communication market and create new opportunities for innovation and growth.
Legal claims defining the scope of protection. Each claim is shown in both the original legal language and a plain English translation.
1. A method for controlling a delivery of voice communications, the method comprising: creating a profile of a first user with a list of contacts and associated security levels; initiating or receiving a telephone call by said first user of a mobile device using cellular radio over a cellular data network; identifying a second user who is communicating with said first user by said telephone call; monitoring a signal strength of a cellular radio signal received by said mobile device over said cellular data network; detecting one or more wireless networks in response to said signal strength of said cellular radio signal being less than a first threshold; checking, by a processor, said profile of said first user of said mobile device to determine if authorized to switch to one of said one or more detected wireless networks to deliver voice communications based on a security level associated with said second user in response to said signal strength of said cellular radio signal being less than said first threshold; selecting a secured wireless network from said one or more detected wireless networks to deliver voice communications using voice over Internet protocol in response to said security level associated with said second user meeting or exceeding a predefined security level and in response to one of said one or more detected wireless networks being secure or selecting one of said one or more detected wireless networks in response to said security level associated with said second user being below said predefined security level; and switching to deliver voice communications using said voice over Internet protocol over said selected wireless network or displaying a notification to said first user of said mobile device with an option to switch to deliver voice communications using said voice over Internet protocol over said selected wireless network.
A mobile device manages voice calls by switching between cellular and Wi-Fi networks based on a user's profile and the security level of the person they're talking to. The device creates a profile with contacts and associated security levels. During a cellular call, it monitors the cellular signal strength. If the signal is weak, the device scans for available Wi-Fi networks. It then checks the user's profile to see if switching to Wi-Fi is allowed for the current contact based on their security level. If allowed and a secure Wi-Fi network is available, the device switches to VoIP over that Wi-Fi. If the contact's security level is low or a secure Wi-Fi isn't available, an unsecure Wi-Fi network is selected or the device displays a notification, giving the user the option to switch to VoIP via Wi-Fi.
2. The method as recited in claim 1 further comprising: disabling said mobile device from contacting said cellular data network to ping for service in response to switching to deliver said voice over Internet protocol over said selected wireless network.
The voice call management system from the previous description enhances network control by, after switching a voice call to VoIP over Wi-Fi due to poor cellular signal and contact security level approval, disables the mobile device's cellular radio from periodically pinging the cellular data network to check for service availability. This prevents the device from consuming unnecessary cellular data or power while actively using the Wi-Fi connection for the voice call.
3. The method as recited in claim 2 further comprising: monitoring a signal strength of said voice over Internet protocol signal over said selected wireless network; switching to deliver voice communications using said cellular radio over said cellular data network in response to said signal strength of said voice over Internet protocol signal over said selected wireless network being less than a second threshold; and disabling said mobile device from contacting said selected wireless network.
Building on the previous Wi-Fi handover feature, the system continues to monitor the VoIP signal strength over the selected Wi-Fi network. If this Wi-Fi signal becomes weak (below a defined threshold), the system automatically switches the voice call back to the cellular network. After switching back to the cellular network due to poor Wi-Fi, the mobile device disables its connection to the Wi-Fi network, preventing it from automatically reconnecting and creating a potentially unstable call experience.
4. The method as recited in claim 1 , wherein said profile specifies only using a secure wireless network for delivering voice communications using voice over Internet protocol for users with a security level that meets or exceeds said predefined security level, wherein said profile permits using an unsecure wireless network for delivering voice communications using voice over Internet protocol for users with a security level that is below said predefined security level.
The user profile in the voice call management system enforces specific rules for Wi-Fi usage based on contact security levels. For contacts with a security level at or above a predefined threshold, the system will only allow VoIP calls to be delivered over a *secure* Wi-Fi network. Conversely, for contacts with a security level *below* the threshold, the profile permits the use of an *unsecured* Wi-Fi network for VoIP calls. This provides granular control over data security based on who the user is communicating with.
5. The method as recited in claim 1 , wherein said second user to whom said first user is communicating is identified based on one or more of the following: social media, reverse phone look-up and contact list.
The voice call management system identifies the person a user is talking to by checking various sources. It uses information from social media profiles, performs a reverse phone number lookup, or checks the user's contact list. This information is then used to determine the contact's security level as defined in the user's profile to determine whether to switch to available Wi-Fi networks.
6. The method as recited in claim 1 , wherein said detected one or more wireless networks are Wi-Fi networks.
In the voice call management system, the wireless networks that the mobile device detects and potentially switches to for VoIP calls are specifically Wi-Fi networks. The system prioritizes these Wi-Fi networks over other types of wireless connections (e.g., Bluetooth, WiMax) to improve voice call quality and reduce cellular data usage when the cellular signal is weak.
7. The method as recited in claim 1 further comprising: continuing to deliver voice communications over said cellular data network in response to said security level associated with said second user meeting or exceeding said predefined security level and in response to none of said one or more detected wireless networks being secure.
The voice call management system handles scenarios where switching to Wi-Fi is not desirable or possible. If the security level of the contact being called is high and *none* of the detected Wi-Fi networks are secure, the system will *continue* to deliver the voice communication over the cellular data network, even if the cellular signal strength is below the defined threshold. This ensures that secure calls remain on the cellular network when secure Wi-Fi is unavailable.
8. A computer program product for controlling a delivery of voice communications, the computer program product comprising a computer readable storage medium having program code embodied therewith, the program code comprising the programming instructions for: initiating or receiving a telephone call by a first user of a mobile device using cellular radio over a cellular data network; creating a profile of a first user with a list of contacts and associated security levels; initiating or receiving a telephone call by said first user of a mobile device using cellular radio over a cellular data network; identifying a second user who is communicating with said first user by said telephone call; monitoring a signal strength of a cellular radio signal received by said mobile device over said cellular data network; detecting one or more wireless networks in response to said signal strength of said cellular radio signal being less than a first threshold; checking said profile of said first user of said mobile device to determine if authorized to switch to one of said one or more detected wireless networks to deliver voice communications based on a security level associated with said second user in response to said signal strength of said cellular radio signal being less than said first threshold; selecting a secured wireless network from said one or more detected wireless networks to deliver voice communications using voice over Internet protocol in response to said security level associated with said second user meeting or exceeding a predefined security level and in response to one of said one or more detected wireless networks being secure or selecting one of said one or more detected wireless networks in response to said security level associated with said second user being below said predefined security level; and switching to deliver voice communications using said voice over Internet protocol over said selected wireless network or displaying a notification to said first user of said mobile device with an option to switch to deliver voice communications using said voice over Internet protocol over said selected wireless network.
A software application manages voice calls by switching between cellular and Wi-Fi networks based on a user's profile and the security level of the person they're talking to. The application creates a profile with contacts and associated security levels. During a cellular call, it monitors the cellular signal strength. If the signal is weak, the application scans for available Wi-Fi networks. It then checks the user's profile to see if switching to Wi-Fi is allowed for the current contact based on their security level. If allowed and a secure Wi-Fi network is available, the application switches to VoIP over that Wi-Fi. If the contact's security level is low or a secure Wi-Fi isn't available, an unsecure Wi-Fi network is selected or the application displays a notification, giving the user the option to switch to VoIP via Wi-Fi.
9. The computer program product as recited in claim 8 , wherein the program code further comprises the programming instructions for: disabling said mobile device from contacting said cellular data network to ping for service in response to switching to deliver said voice over Internet protocol over said selected wireless network.
The software application from the previous description enhances network control by, after switching a voice call to VoIP over Wi-Fi due to poor cellular signal and contact security level approval, disables the mobile device's cellular radio from periodically pinging the cellular data network to check for service availability. This prevents the device from consuming unnecessary cellular data or power while actively using the Wi-Fi connection for the voice call.
10. The computer program product as recited in claim 9 , wherein the program code further comprises the programming instructions for: monitoring a signal strength of said voice over Internet protocol signal over said selected wireless network; switching to deliver voice communications using said cellular radio over said cellular data network in response to said signal strength of said voice over Internet protocol signal over said selected wireless network being less than a second threshold; and disabling said mobile device from contacting said selected wireless network.
Building on the previous Wi-Fi handover feature, the software application continues to monitor the VoIP signal strength over the selected Wi-Fi network. If this Wi-Fi signal becomes weak (below a defined threshold), the application automatically switches the voice call back to the cellular network. After switching back to the cellular network due to poor Wi-Fi, the mobile device disables its connection to the Wi-Fi network, preventing it from automatically reconnecting and creating a potentially unstable call experience.
11. The computer program product as recited in claim 8 , wherein said profile specifies only using a secure wireless network for delivering voice communications using voice over Internet protocol for users with a security level that meets or exceeds said predefined security level, wherein said profile permits using an unsecure wireless network for delivering voice communications using voice over Internet protocol for users with a security level that is below said predefined security level.
The user profile in the software application enforces specific rules for Wi-Fi usage based on contact security levels. For contacts with a security level at or above a predefined threshold, the application will only allow VoIP calls to be delivered over a *secure* Wi-Fi network. Conversely, for contacts with a security level *below* the threshold, the profile permits the use of an *unsecured* Wi-Fi network for VoIP calls. This provides granular control over data security based on who the user is communicating with.
12. The computer program product as recited in claim 8 , wherein said second user to whom said first user is communicating is identified based on one or more of the following: social media, reverse phone look-up and contact list.
The software application identifies the person a user is talking to by checking various sources. It uses information from social media profiles, performs a reverse phone number lookup, or checks the user's contact list. This information is then used to determine the contact's security level as defined in the user's profile to determine whether to switch to available Wi-Fi networks.
13. The computer program product as recited in claim 8 , wherein said detected one or more wireless networks are Wi-Fi networks.
In the software application, the wireless networks that the mobile device detects and potentially switches to for VoIP calls are specifically Wi-Fi networks. The application prioritizes these Wi-Fi networks over other types of wireless connections (e.g., Bluetooth, WiMax) to improve voice call quality and reduce cellular data usage when the cellular signal is weak.
14. The computer program product as recited in claim 8 , wherein the program code further comprises the programming instructions for: continuing to deliver voice communications over said cellular data network in response to said security level associated with said second user meeting or exceeding said predefined security level and in response to none of said one or more detected wireless networks being secure.
The software application handles scenarios where switching to Wi-Fi is not desirable or possible. If the security level of the contact being called is high and *none* of the detected Wi-Fi networks are secure, the application will *continue* to deliver the voice communication over the cellular data network, even if the cellular signal strength is below the defined threshold. This ensures that secure calls remain on the cellular network when secure Wi-Fi is unavailable.
15. A system, comprising: a memory unit for storing a computer program for controlling a delivery of voice communications; and a processor coupled to the memory unit, wherein the processor is configured to execute the program instructions of the computer program comprising: creating a profile of a first user with a list of contacts and associated security levels; initiating or receiving a telephone call by said first user of a mobile device using cellular radio over a cellular data network; identifying a second user who is communicating with said first user by said telephone call; monitoring a signal strength of a cellular radio signal received by said mobile device over said cellular data network; detecting one or more wireless networks in response to said signal strength of said cellular radio signal being less than a first threshold; checking said profile of said first user of said mobile device to determine if authorized to switch to one of said one or more detected wireless networks to deliver voice communications based on a security level associated with said second user in response to said signal strength of said cellular radio signal being less than said first threshold; selecting a secured wireless network from said one or more detected wireless networks to deliver voice communications using voice over Internet protocol in response to said security level associated with said second user meeting or exceeding a predefined security level and in response to one of said one or more detected wireless networks being secure or selecting one of said one or more detected wireless networks in response to said security level associated with said second user being below said predefined security level; and switching to deliver voice communications using said voice over Internet protocol over said selected wireless network or displaying a notification to said first user of said mobile device with an option to switch to deliver voice communications using said voice over Internet protocol over said selected wireless network.
A system comprises a processor and memory to manage voice calls. The system creates a profile with contacts and associated security levels. During a cellular call, it monitors the cellular signal strength. If the signal is weak, the system scans for available Wi-Fi networks. It then checks the user's profile to see if switching to Wi-Fi is allowed for the current contact based on their security level. If allowed and a secure Wi-Fi network is available, the system switches to VoIP over that Wi-Fi. If the contact's security level is low or a secure Wi-Fi isn't available, an unsecure Wi-Fi network is selected or the system displays a notification, giving the user the option to switch to VoIP via Wi-Fi.
16. The system as recited in claim 15 , wherein the program instructions of the computer program further comprises: disabling said mobile device from contacting said cellular data network to ping for service in response to switching to deliver said voice over Internet protocol over said selected wireless network.
The voice call management system from the previous description enhances network control by, after switching a voice call to VoIP over Wi-Fi due to poor cellular signal and contact security level approval, disables the mobile device's cellular radio from periodically pinging the cellular data network to check for service availability. This prevents the device from consuming unnecessary cellular data or power while actively using the Wi-Fi connection for the voice call.
17. The system as recited in claim 16 , wherein the program instructions of the computer program further comprises: monitoring a signal strength of said voice over Internet protocol signal over said selected wireless network; switching to deliver voice communications using said cellular radio over said cellular data network in response to said signal strength of said voice over Internet protocol signal over said selected wireless network being less than a second threshold; and disabling said mobile device from contacting said selected wireless network.
Building on the previous Wi-Fi handover feature, the system continues to monitor the VoIP signal strength over the selected Wi-Fi network. If this Wi-Fi signal becomes weak (below a defined threshold), the system automatically switches the voice call back to the cellular network. After switching back to the cellular network due to poor Wi-Fi, the mobile device disables its connection to the Wi-Fi network, preventing it from automatically reconnecting and creating a potentially unstable call experience.
18. The system as recited in claim 15 , wherein said profile specifies only using a secure wireless network for delivering voice communications using voice over Internet protocol for users with a security level that meets or exceeds said predefined security level, wherein said profile permits using an unsecure wireless network for delivering voice communications using voice over Internet protocol for users with a security level that is below said predefined security level.
The user profile in the voice call management system enforces specific rules for Wi-Fi usage based on contact security levels. For contacts with a security level at or above a predefined threshold, the system will only allow VoIP calls to be delivered over a *secure* Wi-Fi network. Conversely, for contacts with a security level *below* the threshold, the profile permits the use of an *unsecured* Wi-Fi network for VoIP calls. This provides granular control over data security based on who the user is communicating with.
19. The system as recited in claim 15 , wherein said second user to whom said first user is communicating is identified based on one or more of the following: social media, reverse phone look-up and contact list.
The voice call management system identifies the person a user is talking to by checking various sources. It uses information from social media profiles, performs a reverse phone number lookup, or checks the user's contact list. This information is then used to determine the contact's security level as defined in the user's profile to determine whether to switch to available Wi-Fi networks.
20. The system as recited in claim 15 , wherein said detected one or more wireless networks are Wi-Fi networks.
In the voice call management system, the wireless networks that the mobile device detects and potentially switches to for VoIP calls are specifically Wi-Fi networks. The system prioritizes these Wi-Fi networks over other types of wireless connections (e.g., Bluetooth, WiMax) to improve voice call quality and reduce cellular data usage when the cellular signal is weak.
[HOOK] Ever dropped a call at the worst moment? π© [PROBLEM] Your phone blindly switches between Wi-Fi and cellular, leading to dropped calls and unsecured connections. π [SOLUTION] Introducing Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile! π This patent intelligently switches networks based on YOUR profile and security needs. It's like having a bodyguard for your calls! π‘οΈ Better voice quality, secure connections, and seamless transitions. π [CTA] Learn more and revolutionize your mobile experience at patentable.app!
[HOOK 1] Ever get cut off mid-sentence? π‘ [HOOK 2] Dropped calls driving you crazy? π€ͺ [HOOK 3] Wish your phone was smarter about Wi-Fi? π€
[PROBLEM] You're on a call, signal drops, BOOM π₯ call gone! Happens all the time, right?
[SOLUTION] Introducing Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile! This tech makes your phone switch to the BEST network automatically, based on YOUR profile and security! π‘οΈ No more dropped calls, better voice quality, and secure connections! π
[CTA] Level up your mobile game! π Learn more about Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile at patentable.app!
[INTRO - HOOK 1] Are dropped calls ruining your day? π© Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile is here to save the day! [INTRO - HOOK 2] Did you know your phone could be smarter about Wi-Fi? π€ This patent is changing the game!
[CONTEXT] Mobile communication is essential, but switching between cellular and Wi-Fi is often clunky. Dropped calls and security risks are a constant issue.
[INNOVATION] This patent introduces a system that intelligently switches between networks based on YOUR profile and security settings. It checks signal strength, authorized networks, and contact security levels to make the best choice. π§
[IMPACT] This means fewer dropped calls, better voice quality, and enhanced security for businesses and individuals. It's the future of seamless mobile communication! π
[CLOSING] Ready to experience the difference? Learn more about Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile at patentable.app!
[VISUAL HOOK] Phone screen showing a seamless transition between cellular and Wi-Fi icons.
[PROBLEM] Unsecured Wi-Fi putting your calls at risk? β οΈ
[SOLUTION] The Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile patent provides intelligent network switching! Your phone automatically chooses the safest and best network for your calls, based on who you're talking to and your preferences. π
[CTA] Link in bio for full Controlling a Delivery of Voice Communications Over a Cellular Data Network or a Wireless Network Based on User's Profile details and secure your communication! π
Mobile phone intelligently switching between cellular and Wi-Fi networks for voice communication based on user profile.
System architecture diagram showing data flow for intelligent network switching based on user profile and security.
Abstract visualization of intelligent network switching with interconnected cellular and Wi-Fi networks.
Infographic comparing intelligent network switching with traditional methods.
Social media card highlighting the benefits of intelligent network switching.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
April 21, 2015
December 26, 2017
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